 \documentclass{beamer}
 \setbeamerfont{title}{size=\LARGE}
 \setbeamertemplate{section in toc}[sections numbered]
 \setbeamerfont{frametitle}{size=\large}
 \setbeamertemplate{blocks}[rounded][shadow=true]
 \setbeamertemplate{navigation symbols}{}
 \setbeamertemplate{footline}[frame number]
 \usepackage{booktabs,array,float,amsthm,color,multirow}
 \newcommand*{\dif}{\mathop{}\!\mathrm{d}}

 \begin{document}
  \title{ summary }
 \begin{frame}[plain]
 \titlepage
 \end{frame}
\section{30k entries per experiments}

 \frame{\sectionpage}
 \subsection{Xic02XimPi}



 \begin{frame}%Phi=-2.1 & Polarization = {0.0.01,0.1} & 30k entries & Xi
 \frametitle{Polarization = (0.0.01,0.1)}
  There is 1000 experiments has been done


 \resizebox{\textwidth}{!}
 {
 \begin{tabular}{ccccccc}
 \toprule
 \multirow{2}{*}{ observables} & \multicolumn{2}{c}{$\Phi_c =-2.1$} & \multicolumn{2}{c}{$\Phi_c =-22.5$} & \multicolumn{2}{c}{$\Phi_c =-45$} \\
 & Mean & RMS & Mean & RMS & Mean & RMS
 \\
 \midrule
 $ \alpha_{\Xi_{c}^{0}} $     & -0.640 & 0.0107 & -0.640 & 0.0107 & -0.640 & 0.0104
 \\
 $\Phi_{c}$                   & -2.213 & 13.744 & -22.496 & 14.664 & -45.418 & 15.309
 \\
 $ \beta_{\Xi_{c}^{0}} $      & -0.028 & 0.178 & -0.284 & 0.176 & -0.527 & 0.140
 \\
 $ \gamma_{\Xi_{c}^{0}} $     & 0.745 & 0.035 & 0.686 & 0.078      & 0.520 & 0.144
 \\
 $  P_x  $                    & 0.0002 & 0.0121  & 0.0004 & 0.0124  & 0.0006 & 0.0124
 \\
 $  P_y  $                    & 0.010 & 0.012 & 0.010 & 0.012 & 0.010 & 0.012
 \\
 $  P_z  $                    & 0.100 & 0.010 & 0.100 & 0.010  & 0.100 & 0.010
 \\
 $\Phi$                       & -2.073 & 2.119 & -2.254 & 2.092 & -1.921 & 2.006
 \\
 $ \beta_{\Xi^{-}} $          & -0.033 & 0.033 & -0.036 & 0.0334 & -0.030 & 0.032
 \\
 $ \gamma_{\Xi^{-}} $         & 0.9148 & 0.0015 & 0.9147 & 0.0016& 0.9149 & 0.0013
 \\
 \bottomrule
 \end{tabular} }

 \end{frame}



\begin{frame}    %Phi=-2.1  Polarization =(0.1,0.1,0.1) & 30k entries & Xi
 \frametitle{Polarization =(0.1,0.1,0.1)}
  There is 1000 experiments has been done
 \resizebox{\textwidth}{!}
 {
 \begin{tabular}{ccccccc}
 \toprule
 \multirow{2}{*}{ observables} & \multicolumn{2}{c}{$\Phi_c =-2.1$} & \multicolumn{2}{c}{$\Phi_c =-22.5$} & \multicolumn{2}{c}{$\Phi_c =-45$} \\
 & Mean & RMS & Mean & RMS & Mean & RMS
 \\
 \midrule
 $ \alpha_{\Xi_{c}^{0}} $  & -0.639 & 0.010 & -0.640 & 0.009   & -0.640 & 0.010
 \\
 $\Phi_{c}$                & -1.899 & 7.122  & -22.475 & 6.847  & -45.018 & 6.706
 \\
 $ \beta_{\Xi_{c}^{0}} $   & -0.025 & 0.094 & -0.291 & 0.084   & -0.539 & 0.063
 \\
 $ \gamma_{\Xi_{c}^{0}} $  & 0.762& 0.012 & 0.704 & 0.036 & 0.539 & 0.064
 \\
 $  P_x  $                 & 0.100 & 0.012& 0.100 & 0.013  & 0.100 & 0.012
 \\
 $  P_y  $                 & 0.100 & 0.012  & 0.100 & 0.012   & 0.100 & 0.012
 \\
 $  P_z  $                 & 0.100 & 0.010  & 0.100 & 0.009      & 0.100 & 0.010
 \\
 $\Phi$                    & -2.042 & 1.997  & -2.029 & 1.964 & -2.090 & 1.954
 \\
 $ \beta_{\Xi^{-}} $       & -0.032 & 0.031 & -0.032 & 0.031   & -0.033 & 0.031
 \\
 $ \gamma_{\Xi^{-}} $      & 0.914 & 0.001 & 0.914 & 0.001       & 0.914 & 0.001
 \\
 \bottomrule
 \end{tabular} }

 \end{frame}



 \subsection{Omegac2OmegamPi}

  \begin{frame}     %Phi=-2.1  Polarization =(0,0.01,0.1) & 30k entries & Omega
 \frametitle{Polarization =(0,0.01,0.1)}
  There is 1000 experiments has been done
 \resizebox{\textwidth}{!}
 {
 \begin{tabular}{ccccccc}
 \toprule
 \multirow{2}{*}{ observables} & \multicolumn{2}{c}{$\Phi_c =-2.1$} & \multicolumn{2}{c}{$\Phi_c =-22.5$} & \multicolumn{2}{c}{$\Phi_c =-45$} \\
 & Mean & RMS & Mean & RMS & Mean & RMS
 \\
 \midrule
 $ \alpha_{\Omega_{c}^{0}} $  & -0.640 & 0.011 & -0.639 & 0.011 & -0.640 & 0.011
 \\
 $\Phi_c$                     & -1.845 & 5.916 & -22.534 & 6.097 & -44.922 & 5.905
 \\
 $ \beta_{\Omega_{c}^{0}} $   & -0.024 & 0.078 & -0.292 & 0.075 & -0.539 & 0.056
 \\
 $ \gamma_{\Omega_{c}^{0}} $  & 0.763 & 0.011 & 0.705 & 0.032 & 0.541 & 0.056
 \\
 $  P_x  $                    & 0.0003 & 0.0078 & -0.0001 & 0.0080  & -0.0001 & 0.0076
 \\
 $  P_y  $                    & 0.010 & 0.007  & 0.010 & 0.007 & 0.009 & 0.00775875
 \\
 $  P_z  $                    & 0.100 & 0.007  & 0.100 & 0.007 & 0.100 & 0.0078073
 \\
 $\Phi$                       & -2.163 & 1.829 & -2.068 & 1.907  & -2.051 & 1.92287
 \\
 $ \beta_{\Omega^{-}} $       & -0.037 & 0.031 & -0.036 & 0.033 & -0.035 & 0.033
 \\
 $ \gamma_{\Omega^{-}} $      & 0.998 & 0.001  & 0.998 & 0.001 & 0.998 & 0.001
 \\
 \bottomrule
 \end{tabular}
 }

 \end{frame}




\begin{frame}    %Phi=-2.1  Polarization =(0.1,0.1,0.1) & 30k entries & Omega
 \frametitle{Polarization =(0.1,0.1,0.1)}
  There is 1000 experiments has been done


 \resizebox{\textwidth}{!}
 {
 \begin{tabular}{ccccccc}
 \toprule
 \multirow{2}{*}{ observables} & \multicolumn{2}{c}{$\Phi_c =-2.1$} & \multicolumn{2}{c}{$\Phi_c =-22.5$} & \multicolumn{2}{c}{$\Phi_c =-45$} \\
 & Mean & RMS & Mean & RMS & Mean & RMS
 \\
 \midrule
 $ \alpha_{\Omega_{c}^{0}} $  & -0.640 & 0.011 & -0.640 & 0.011 & -0.640 & 0.011
 \\
 $\Phi_c$                     & -2.207 & 2.919  & -22.374 & 2.961 & -44.912 & 3.019
 \\
 $ \beta_{\Omega_{c}^{0}} $   & -0.029 & 0.039 & -0.292 & 0.036  & -0.541 & 0.029
 \\
 $ \gamma_{\Omega_{c}^{0}} $  & 0.766& 0.009 & 0.709 & 0.017 & 0.543 & 0.029
 \\
 $  P_x  $                    & 0.100 & 0.007 & 0.099 & 0.007   & 0.100& 0.007
 \\
 $  P_y  $                    & 0.099 & 0.007& 0.099 & 0.007 & 0.100 & 0.007
 \\
 $  P_z  $                    & 0.099 & 0.007 & 0.099 & 0.007 & 0.100 & 0.007
 \\
 $\Phi$                       & -2.106 & 1.675  & -2.089 & 1.637  & -2.101 & 1.680
 \\
 $ \beta_{\Omega^{-}} $       & -0.036 & 0.029 & -0.036 & 0.028   & -0.036 & 0.029
 \\
 $ \gamma_{\Omega^{-}} $      & 0.998 & 0.001 & 0.998 & 0.001 & 0.998 & 0.001
 \\
 \bottomrule
 \end{tabular} }

 \end{frame}





\section{120k entries per experiments}
 \frame{\sectionpage}
\subsection{Xic2XimPi}



 \begin{frame}    %Phi=-2.1 Polarization =(0,0.01,0.1) & 120k entries & Xi
 \frametitle{Polarization =(0,0.01,0.1)}
  There is 1000 experiments has been done


 \resizebox{\textwidth}{!}
 {
 \begin{tabular}{ccccccc}
 \toprule
 \multirow{2}{*}{ observables} & \multicolumn{2}{c}{$\Phi_c =-2.1$} & \multicolumn{2}{c}{$\Phi_c =-22.5$} & \multicolumn{2}{c}{$\Phi_c =-45$} \\
 & Mean & RMS & Mean & RMS & Mean & RMS
 \\
 \midrule
 $ \alpha_{\Xi_{c}^{0}} $  & -0.640 & 0.005 & -0.64001 & 0.005 & -0.639 & 0.005
 \\
 $\Phi_{c}$                & -2.086 & 7.114 & -22.416 & 6.800 & -44.815 & 6.992
 \\
 $ \beta_{\Xi_{c}^{0}} $   & -0.027 & 0.094 & -0.290 & 0.083& -0.537 & 0.066
 \\
 $ \gamma_{\Xi_{c}^{0}} $  & 0.761 & 0.0103 & 0.705 & 0.035 & 0.541 & 0.065
 \\
 $  P_x  $                 & 6.5e-05 & 0.006 & 7.4e-05 & 0.006  & -2.5e-4 & 0.006
 \\
 $  P_y  $                 & 0.010 & 0.006& 0.009 & 0.006  & 0.009 & 0.006
 \\
 $  P_z  $                 & 0.100 & 0.005 & 0.100 & 0.005 & 0.099 & 0.004
 \\
 $\Phi$                    & -2.061 & 1.05005 & -2.132 & 1.016 & -2.094 & 1.015
 \\
 $ \beta_{\Xi^{-}} $       & -0.032 & 0.016 & -0.034 & 0.016 & -0.033 & 0.016
 \\
 $ \gamma_{\Xi^{-}} $      & 0.915 & 0.0006 & 0.915 & 0.0006  & 0.915& 0.0006
 \\
 \bottomrule
 \end{tabular} }

 \end{frame}






 \subsection{Omegac2OmegamPi}


 \begin{frame}    %Phi=-2.1  Polarization =(0,0.01,0.1) & 120k entries & Omega
 \frametitle{Polarization =(0,0.01,0.1) }
  There is 1000 experiments has been done


 \resizebox{\textwidth}{!}
 {
 \begin{tabular}{ccccccc}
 \toprule
 \multirow{2}{*}{ observables} & \multicolumn{2}{c}{$\Phi_c =-2.1$} & \multicolumn{2}{c}{$\Phi_c =-22.5$} & \multicolumn{2}{c}{$\Phi_c =-45$} \\
 & Mean & RMS & Mean & RMS & Mean & RMS
 \\
 \midrule
 $ \alpha_{\Omega_{c}^{0}} $  & -0.639 & 0.005 & -0.640 & 0.005 & -0.639 & 0.005
 \\
 $\Phi_c$                     & -2.193 & 3.112 & -22.535 & 3.028 & -44.929 & 2.896
 \\
 $ \beta_{\Omega_{c}^{0}} $   & -0.029 & 0.041 & -0.294 & 0.037 & -0.542 & 0.027
 \\
 $ \gamma_{\Omega_{c}^{0}} $  & 0.766 & 0.005 & 0.708 & 0.016 & 0.543 & 0.027
 \\
 $  P_x  $                    & 3.6e-05 & 0.003   & 1.8e-05 & 0.003 & -1.4e-4 & 0.003
 \\
 $  P_y  $                    & 0.010 & 0.003 & 0.010 & 0.003  & 0.010 & 0.003
 \\
 $  P_z  $                    & 0.100 & 0.003  & 0.100 & 0.003  & 0.099 & 0.003
 \\
 $\Phi$                       & -2.122 & 0.922  & -2.120 & 0.982  & -2.132 & 0.888
 \\
 $ \beta_{\Omega^{-}} $       & -0.037 & 0.016  & -0.036 & 0.017 & -0.037 & 0.015
 \\
 $ \gamma_{\Omega^{-}} $      & 0.999 & 0.0006   & 0.999 & 0.0006  & 0.999 & 0.0006
 \\
 \bottomrule
 \end{tabular}
 }

 \end{frame}






 \section{other conditions}
 \frame{\sectionpage}

 \begin{frame}
 \frametitle{$\Xi_{c}^{0} \rightarrow \Omega^{-} K^{+}$ with 7k entries per experiments}
  There is 1000 experiments has been done

  (generating value : Phi=-45  Polarization =(0,0.01,0.1))

\resizebox{\textwidth}{!}
 {

 \begin{tabular}{ccc}
 \toprule
 observables & Mean & RMS   \\
 \midrule
 $ \alpha_{\Xi_{c}^{0}} $  & -0.641279 & 0.0239847    \\
 $ \Phi $ for $ \Xi_{c}^{0} \rightarrow  \Omega^{-}  K^{+} $          & -45.8887 & 13.8894   \\
 $ \beta_{\Xi_{c}^{0}} $   & -0.534444 & 0.127828    \\
 $ \gamma_{\Xi_{c}^{0}} $  & 0.518316 & 0.132773    \\
 $  P_x  $                 & 0.000401402 & 0.0171625    \\
 $  P_y  $                 & 0.0110475 & 0.0158085    \\
 $  P_z  $                 & 0.101788 & 0.0159871    \\
 $\Phi$                       & -2.18531 & 3.96027   \\
 $ \beta_{\Omega^{-}} $       & -0.0380308 & 0.0688929    \\
 $ \gamma_{\Omega^{-}} $      & 0.996753 & 0.00435877    \\
 \bottomrule
 \end{tabular}
 }

 \end{frame}






  \end{document}
